A Zebrafish Model Of Facioscapulohumeral Dystrophy For Therapy Development And Functional Studies
Funder
National Health and Medical Research Council
Funding Amount
$390,601.00
Summary
This project seeks to develop a zebrafish model for a genetic muscle-wasting disease called facioscapulohumeral dystrophy (FSHD). Our zebrafish model will enable us to better understand the biological mechanisms underlying the disease, as well as provide a platform for therapeutic testing and discovery.
Cis Regulatory And Functional Analysis Of Genomic Loci With Implication In Hypothalamic Obesity Using The Zebrafish As A Model System
Funder
National Health and Medical Research Council
Funding Amount
$480,936.00
Summary
Gene regulatory mutations cause changes in gene activity (expression -level, -time, -site) and therefore decide about the availability of proteins. Regulatory mutations in uncharacterized genomic loci that are related to obesity and further their effects shall be identified, with emphasis on those affecting the hypothalamic food intake control circuits. Since the energy metabolism system and the obesity candidate genes are conserved, the model system zebrafish will be used for these analyses.
Truncating Presenilin Mutations And Their Effects On Gamma-secretase Activity, Tau And Beta-catenin
Funder
National Health and Medical Research Council
Funding Amount
$414,005.00
Summary
Alzheimer's disease (AD) and cancer are increasingly important both in terms of human suffering and the burden of care it imposes on society and the economy. Sporadic (non-inherited) AD is the most common form of dementia but is poorly understood. The PRESENILIN genes, PSEN1 and PSEN2, are the major sites for mutations causing inherited AD and are also implicated in cancer. Using the zebrafish embryo model we have discovered that, contrary to current thought, mutations that truncate presenilin p ....Alzheimer's disease (AD) and cancer are increasingly important both in terms of human suffering and the burden of care it imposes on society and the economy. Sporadic (non-inherited) AD is the most common form of dementia but is poorly understood. The PRESENILIN genes, PSEN1 and PSEN2, are the major sites for mutations causing inherited AD and are also implicated in cancer. Using the zebrafish embryo model we have discovered that, contrary to current thought, mutations that truncate presenilin proteins potently suppress normal presenilin activity. (They are so called, dominant negatives). This means that they are lethal for embryo development and explains why such mutations have never been found in inherited AD. Notably, this discovery could only be made using a subtle form of gene manipulation that is possible in zebrafish embryos. Our work has also established the first assay for the non-apoptotic (non-cell death) function of PSEN2 and has shown that PSEN2 activity is inhibited by truncated PSEN1. This is the first indication of possible interaction between PSEN1 and PSEN2 proteins at normal physiological expression levels. Loss of presenilin activity promotes cancer. Truncated presenilin proteins could be produced by errors in gene transcription (aberrant transcript splicing) common in cancerous cells. This suggests that truncated, dominant negative forms of presenilin produced through aberrant splicing (or mutation in precancerous cells) might be common in tumour formation. The proposed research will define the region of PSEN1 in which truncation leads to dominant negative activity. This will allow further examination of the role of presenilins in the cell signalling pathways involved in AD and cancer. We will also investigate the role that age-related truncation of presenilins in human cells can play in the formation of sporadic AD. This may reveal a common molecular link between the inherited and sporadic forms of this disease.Read moreRead less